/* Copyright (C) 2013-2022 Codership Oy This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA. */ #include "mariadb.h" #include "wsrep_thd.h" #include "wsrep_trans_observer.h" #include "wsrep_high_priority_service.h" #include "wsrep_storage_service.h" #include "wsrep_server_state.h" #include "transaction.h" #include "rpl_rli.h" #include "log_event.h" #include "sql_parse.h" #include "wsrep_mysqld.h" // start_wsrep_THD(); #include "mysql/service_wsrep.h" #include "debug_sync.h" #include "slave.h" #include "rpl_rli.h" #include "rpl_mi.h" extern "C" pthread_key(struct st_my_thread_var*, THR_KEY_mysys); static Wsrep_thd_queue* wsrep_rollback_queue= 0; static Atomic_counter wsrep_bf_aborts_counter; int wsrep_show_bf_aborts (THD *thd, SHOW_VAR *var, char *buff, enum enum_var_type scope) { wsrep_local_bf_aborts= wsrep_bf_aborts_counter; var->type= SHOW_LONGLONG; var->value= (char*)&wsrep_local_bf_aborts; return 0; } static void wsrep_replication_process(THD *thd, void* arg __attribute__((unused))) { DBUG_ENTER("wsrep_replication_process"); Wsrep_applier_service applier_service(thd); WSREP_INFO("Starting applier thread %llu", thd->thread_id); enum wsrep::provider::status ret= Wsrep_server_state::get_provider().run_applier(&applier_service); WSREP_INFO("Applier thread exiting ret: %d thd: %llu", ret, thd->thread_id); mysql_mutex_lock(&LOCK_wsrep_slave_threads); wsrep_close_applier(thd); mysql_cond_broadcast(&COND_wsrep_slave_threads); mysql_mutex_unlock(&LOCK_wsrep_slave_threads); delete thd->wsrep_rgi->rli->mi; delete thd->wsrep_rgi->rli; thd->wsrep_rgi->cleanup_after_session(); delete thd->wsrep_rgi; thd->wsrep_rgi= NULL; if(thd->has_thd_temporary_tables()) { WSREP_WARN("Applier %lld has temporary tables at exit.", thd->thread_id); } DBUG_VOID_RETURN; } static bool create_wsrep_THD(Wsrep_thd_args* args, bool mutex_protected) { if (!mutex_protected) mysql_mutex_lock(&LOCK_wsrep_slave_threads); ulong old_wsrep_running_threads= wsrep_running_threads; DBUG_ASSERT(args->thread_type() == WSREP_APPLIER_THREAD || args->thread_type() == WSREP_ROLLBACKER_THREAD); bool res= mysql_thread_create(args->thread_type() == WSREP_APPLIER_THREAD ? key_wsrep_applier : key_wsrep_rollbacker, args->thread_id(), &connection_attrib, start_wsrep_THD, (void*)args); if (res) WSREP_ERROR("Can't create wsrep thread"); /* if starting a thread on server startup, wait until the this thread's THD is fully initialized (otherwise a THD initialization code might try to access a partially initialized server data structure - MDEV-8208). */ if (!mysqld_server_initialized) { while (old_wsrep_running_threads == wsrep_running_threads) { mysql_cond_wait(&COND_wsrep_slave_threads, &LOCK_wsrep_slave_threads); } } if (!mutex_protected) mysql_mutex_unlock(&LOCK_wsrep_slave_threads); return res; } bool wsrep_create_appliers(long threads, bool mutex_protected) { /* Dont' start slave threads if wsrep-provider or wsrep-cluster-address is not set. */ if (!WSREP_PROVIDER_EXISTS) { return false; } DBUG_ASSERT(wsrep_cluster_address[0]); long wsrep_threads=0; while (wsrep_threads++ < threads) { Wsrep_thd_args* args(new Wsrep_thd_args(wsrep_replication_process, WSREP_APPLIER_THREAD, pthread_self())); if (create_wsrep_THD(args, mutex_protected)) { WSREP_WARN("Can't create thread to manage wsrep replication"); return true; } } return false; } static void wsrep_remove_streaming_fragments(THD* thd, const char* ctx) { wsrep::transaction_id transaction_id(thd->wsrep_trx().id()); Wsrep_storage_service* storage_service= wsrep_create_storage_service(thd, ctx); storage_service->store_globals(); storage_service->adopt_transaction(thd->wsrep_trx()); storage_service->remove_fragments(); storage_service->commit(wsrep::ws_handle(transaction_id, 0), wsrep::ws_meta()); Wsrep_server_state::instance().server_service() .release_storage_service(storage_service); wsrep_store_threadvars(thd); } static void wsrep_rollback_high_priority(THD *thd, THD *rollbacker) { WSREP_DEBUG("Rollbacker aborting SR applier thd (%llu %lu)", thd->thread_id, thd->real_id); char* orig_thread_stack= thd->thread_stack; thd->thread_stack= rollbacker->thread_stack; DBUG_ASSERT(thd->wsrep_cs().mode() == Wsrep_client_state::m_high_priority); /* Must be streaming and must have been removed from the server state streaming appliers map. */ DBUG_ASSERT(thd->wsrep_trx().is_streaming()); DBUG_ASSERT(!Wsrep_server_state::instance().find_streaming_applier( thd->wsrep_trx().server_id(), thd->wsrep_trx().id())); DBUG_ASSERT(thd->wsrep_applier_service); /* Fragment removal should happen before rollback to make the transaction non-observable in SR table after the rollback completes. For correctness the order does not matter here, but currently it is mandated by checks in some MTR tests. */ wsrep_remove_streaming_fragments(thd, "high priority"); thd->wsrep_applier_service->rollback(wsrep::ws_handle(), wsrep::ws_meta()); thd->wsrep_applier_service->after_apply(); thd->thread_stack= orig_thread_stack; WSREP_DEBUG("rollbacker aborted thd: (%llu %lu)", thd->thread_id, thd->real_id); /* Will free THD */ Wsrep_server_state::instance().server_service() .release_high_priority_service(thd->wsrep_applier_service); } static void wsrep_rollback_local(THD *thd, THD *rollbacker) { WSREP_DEBUG("Rollbacker aborting local thd (%llu %lu)", thd->thread_id, thd->real_id); char* orig_thread_stack= thd->thread_stack; thd->thread_stack= rollbacker->thread_stack; if (thd->wsrep_trx().is_streaming()) { wsrep_remove_streaming_fragments(thd, "local"); } /* Set thd->event_scheduler.data temporarily to NULL to avoid callbacks to threadpool wait_begin() during rollback. */ auto saved_esd= thd->event_scheduler.data; thd->event_scheduler.data= 0; mysql_mutex_lock(&thd->LOCK_thd_data); /* prepare THD for rollback processing */ thd->reset_for_next_command(); thd->lex->sql_command= SQLCOM_ROLLBACK; mysql_mutex_unlock(&thd->LOCK_thd_data); /* Perform a client rollback, restore globals and signal the victim only when all the resources have been released */ thd->wsrep_cs().client_service().bf_rollback(); wsrep_reset_threadvars(thd); /* Assign saved event_scheduler.data back before letting client to continue. */ thd->event_scheduler.data= saved_esd; thd->thread_stack= orig_thread_stack; thd->wsrep_cs().sync_rollback_complete(); WSREP_DEBUG("rollbacker aborted thd: (%llu %lu)", thd->thread_id, thd->real_id); } static void wsrep_rollback_process(THD *rollbacker, void *arg __attribute__((unused))) { DBUG_ENTER("wsrep_rollback_process"); THD* thd= NULL; DBUG_ASSERT(!wsrep_rollback_queue); wsrep_rollback_queue= new Wsrep_thd_queue(rollbacker); WSREP_INFO("Starting rollbacker thread %llu", rollbacker->thread_id); thd_proc_info(rollbacker, "wsrep aborter idle"); while ((thd= wsrep_rollback_queue->pop_front()) != NULL) { mysql_mutex_lock(&thd->LOCK_thd_data); wsrep::client_state& cs(thd->wsrep_cs()); const wsrep::transaction& tx(cs.transaction()); if (tx.state() == wsrep::transaction::s_aborted) { WSREP_DEBUG("rollbacker thd already aborted: %llu state: %d", (long long)thd->real_id, tx.state()); mysql_mutex_unlock(&thd->LOCK_thd_data); continue; } mysql_mutex_unlock(&thd->LOCK_thd_data); wsrep_reset_threadvars(rollbacker); wsrep_store_threadvars(thd); thd->wsrep_cs().acquire_ownership(); thd_proc_info(rollbacker, "wsrep aborter active"); /* Rollback methods below may free thd pointer. Do not try to access it after method returns. */ if (wsrep_thd_is_applying(thd)) { wsrep_rollback_high_priority(thd, rollbacker); } else { wsrep_rollback_local(thd, rollbacker); } wsrep_store_threadvars(rollbacker); thd_proc_info(rollbacker, "wsrep aborter idle"); } delete wsrep_rollback_queue; wsrep_rollback_queue= NULL; WSREP_INFO("rollbacker thread exiting %llu", rollbacker->thread_id); DBUG_ASSERT(rollbacker->killed != NOT_KILLED); DBUG_PRINT("wsrep",("wsrep rollbacker thread exiting")); DBUG_VOID_RETURN; } void wsrep_create_rollbacker() { DBUG_ASSERT(wsrep_cluster_address[0]); Wsrep_thd_args* args(new Wsrep_thd_args(wsrep_rollback_process, WSREP_ROLLBACKER_THREAD, pthread_self())); /* create rollbacker */ if (create_wsrep_THD(args, false)) WSREP_WARN("Can't create thread to manage wsrep rollback"); } /* Start async rollback process Asserts thd->LOCK_thd_data ownership */ void wsrep_fire_rollbacker(THD *thd) { DBUG_ASSERT(thd->wsrep_trx().state() == wsrep::transaction::s_aborting); DBUG_PRINT("wsrep",("enqueuing trx abort for %llu", thd->thread_id)); WSREP_DEBUG("enqueuing trx abort for (%llu)", thd->thread_id); if (wsrep_rollback_queue->push_back(thd)) { WSREP_WARN("duplicate thd %llu for rollbacker", thd->thread_id); } } int wsrep_abort_thd(THD *bf_thd_ptr, THD *victim_thd_ptr, my_bool signal) { DBUG_ENTER("wsrep_abort_thd"); THD *victim_thd= (THD *) victim_thd_ptr; THD *bf_thd= (THD *) bf_thd_ptr; mysql_mutex_lock(&victim_thd->LOCK_thd_data); /* Note that when you use RSU node is desynced from cluster, thus WSREP(thd) might not be true. */ if ((WSREP(bf_thd) || ((WSREP_ON || bf_thd->variables.wsrep_OSU_method == WSREP_OSU_RSU) && wsrep_thd_is_toi(bf_thd))) && victim_thd && !wsrep_thd_is_aborting(victim_thd)) { WSREP_DEBUG("wsrep_abort_thd, by: %llu, victim: %llu", (bf_thd) ? (long long)bf_thd->real_id : 0, (long long)victim_thd->real_id); mysql_mutex_unlock(&victim_thd->LOCK_thd_data); ha_abort_transaction(bf_thd, victim_thd, signal); mysql_mutex_lock(&victim_thd->LOCK_thd_data); } else { WSREP_DEBUG("wsrep_abort_thd not effective: %p %p", bf_thd, victim_thd); } mysql_mutex_unlock(&victim_thd->LOCK_thd_data); DBUG_RETURN(1); } bool wsrep_bf_abort(THD* bf_thd, THD* victim_thd) { WSREP_LOG_THD(bf_thd, "BF aborter before"); WSREP_LOG_THD(victim_thd, "victim before"); #ifdef ENABLED_DEBUG_SYNC DBUG_EXECUTE_IF("sync.wsrep_bf_abort", { const char act[]= "now " "SIGNAL sync.wsrep_bf_abort_reached " "WAIT_FOR signal.wsrep_bf_abort"; DBUG_ASSERT(!debug_sync_set_action(bf_thd, STRING_WITH_LEN(act))); };); #endif if (WSREP(victim_thd) && !victim_thd->wsrep_trx().active()) { WSREP_DEBUG("wsrep_bf_abort, BF abort for non active transaction." " Victim state %s bf state %s", wsrep::to_c_string(victim_thd->wsrep_trx().state()), wsrep::to_c_string(bf_thd->wsrep_trx().state())); switch (victim_thd->wsrep_trx().state()) { case wsrep::transaction::s_aborting: /* fall through */ case wsrep::transaction::s_aborted: WSREP_DEBUG("victim is aborting or has aborted"); break; default: break; } /* victim may not have started transaction yet in wsrep context, but it may have acquired MDL locks (due to DDL execution), and this has caused BF conflict. such case does not require aborting in wsrep or replication provider state. */ return false; } bool ret; wsrep::seqno bf_seqno(bf_thd->wsrep_trx().ws_meta().seqno()); if (wsrep_thd_is_toi(bf_thd)) { ret= victim_thd->wsrep_cs().total_order_bf_abort(bf_seqno); } else { DBUG_ASSERT(WSREP(victim_thd) ? victim_thd->wsrep_trx().active() : 1); ret= victim_thd->wsrep_cs().bf_abort(bf_seqno); } if (ret) { wsrep_bf_aborts_counter++; } return ret; } int wsrep_create_threadvars() { int ret= 0; if (thread_handling == SCHEDULER_TYPES_COUNT) { /* Caller should have called wsrep_reset_threadvars() before this method. */ DBUG_ASSERT(!pthread_getspecific(THR_KEY_mysys)); pthread_setspecific(THR_KEY_mysys, 0); ret= my_thread_init(); } return ret; } void wsrep_delete_threadvars() { if (thread_handling == SCHEDULER_TYPES_COUNT) { /* The caller should have called wsrep_store_threadvars() before this method. */ DBUG_ASSERT(pthread_getspecific(THR_KEY_mysys)); /* Reset psi state to avoid deallocating applier thread psi_thread. */ #ifdef HAVE_PSI_INTERFACE PSI_thread *psi_thread= PSI_CALL_get_thread(); if (PSI_server) { PSI_server->set_thread(0); } #endif /* HAVE_PSI_INTERFACE */ my_thread_end(); PSI_CALL_set_thread(psi_thread); pthread_setspecific(THR_KEY_mysys, 0); } } void wsrep_assign_from_threadvars(THD *thd) { if (thread_handling == SCHEDULER_TYPES_COUNT) { st_my_thread_var *mysys_var= (st_my_thread_var *)pthread_getspecific(THR_KEY_mysys); DBUG_ASSERT(mysys_var); thd->set_mysys_var(mysys_var); } } Wsrep_threadvars wsrep_save_threadvars() { return Wsrep_threadvars{ current_thd, (st_my_thread_var*) pthread_getspecific(THR_KEY_mysys) }; } void wsrep_restore_threadvars(const Wsrep_threadvars& globals) { set_current_thd(globals.cur_thd); pthread_setspecific(THR_KEY_mysys, globals.mysys_var); } void wsrep_store_threadvars(THD *thd) { if (thread_handling == SCHEDULER_TYPES_COUNT) { pthread_setspecific(THR_KEY_mysys, thd->mysys_var); } thd->store_globals(); } void wsrep_reset_threadvars(THD *thd) { if (thread_handling == SCHEDULER_TYPES_COUNT) { pthread_setspecific(THR_KEY_mysys, 0); } else { thd->reset_globals(); } }